Search results for "Binary information"

showing 3 items of 3 documents

Jahn-Teller effect in molecular electronics: quantum cellular automata

2017

The article summarizes the main results of application of the theory of the Jahn-Teller (JT) and pseudo JT effects to the description of molecular quantum dot cellular automata (QCA), a new paradigm of quantum computing. The following issues are discussed: 1) QCA as a new paradigm of quantum computing, principles and advantages; 2) molecular implementation of QCA; 3) role of the JT effect in charge trapping, encoding of binary information in the quantum cell and non-linear cell-cell response; 4) spin-switching in molecular QCA based on mixed-valence cell; 5) intervalence optical absorption in tetrameric molecular mixed-valence cell through the symmetry assisted approach to the multimode/mul…

History010304 chemical physicsJahn–Teller effectMolecular electronicsQuantum dot cellular automatonCharge (physics)010402 general chemistry01 natural sciences0104 chemical sciencesComputer Science ApplicationsEducationBinary informationQuantum mechanics0103 physical sciencesElectronic engineeringQuantumQuantum computerMathematicsQuantum cellular automatonJournal of Physics: Conference Series
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Exploration of the double exchange in quantum cellular automata: proposal for a new class of cells

2020

In this communication we propose to considerably extend the class of systems suitable as cells for quantum cellular automata by including magnetic quantum dots and molecular mixed valence dimers exhibiting double exchange. As distinguished from the previous works we propose to use not only charges as the information carriers but also spin degrees of freedom. In this context we focus on the two key points: (1) properties of the magnetic cell as reservoir for charges carrying binary information, and (2) identification of conditions under which spin degrees of freedom can be employed.

PhysicsValence (chemistry)Magnetic PhenomenaMetals and AlloysGeneral ChemistryTopologyCatalysisSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsBinary informationQuantum dotQuantum DotsMaterials ChemistryCeramics and CompositesNanotechnologyQuantum cellular automatonChemical Communications
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Psychophysical response to electrocutaneous stimulation.

1984

A method is presented to determine a reliable stimulus-sensation relationship particularly suitable for electrocutaneous stimulation. An experimental intensity-discrimination curve was obtained through simple psychophysical comparison tasks, and sensory response was inferred from integration of a JND's density function. The psychophysical response resembles a power law, although departures cannot be described in terms of a unique exponent. An estimate of binary information capacity per electrode is also given as a feature of a stimulation procedure that preserves a low value of the size-intensity product.

business.industryBiomedical EngineeringSensationStimulation procedurePattern recognitionStimulationSensory systemProbability density functionElectrocutaneous stimulationPower lawElectric StimulationBinary informationDiscrimination PsychologicalPsychophysicsHumansArtificial intelligenceEvoked potentialPsychologybusinessSkinIEEE transactions on bio-medical engineering
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